cmp 131 introduction to computer programming violetta cavalli-sforza week 9
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CMP 131Introduction to Computer
Programming
Violetta Cavalli-Sforza
Week 9
NEXT WEEK
• Monday May 14 : Quiz
Primarily on:– Ch 2.5: Standard Functions– Ch 4: Conditional Statements
(except Section 4.6)
THIS WEEK
• Repeating statement execution and loops
• Thursday: Lab– Working on Assignment #4
• Sunday May 13: Assignment #4due at midnight (NO LATE HOMEWORK ACCEPTED)
• May start looking at the debugger in the Pascal IDE (if not, next week)
Topics
• General Loops Ideas & Terminology• Pascal statements for dealing with loops
– WHILE loops– FOR loops– REPEAT-UNTIL loops
• Types of loops:– counter-controlled– event-driven loops– menu-driven loops– sentinel-controlled
• Loop design• Common programming errors
Repetition
• Repeating execution of one or more statements• One or more statements enclosed inside a
programming structure that causes them to be executed 0 or more times until some condition is met or no longer met.
• The programming structures associated with repetitions are called loops.
• Pascal (like many other languages) has 3 kinds of loops– FOR loop: FOR … DO– WHILE loop: WHILE … DO– REPEAT loop: REPEAT … UNTIL
Why Use Repetition?
• Examples: – Evaluating the gross & net pay for the employees in a
company– Evaluating the grades for all students in a class,...etc.
• We can write the process for one individual and then ask Pascal to repeat the process for all participants
Loop Talk/Terminology
• 2 General Kinds of Repetition– Fixed repetition:
• It can be determined in advance how many times a segment of code will be repeated
• The number of times the segment of code is repeated is independent of what happens inside the loop
– Variable repetition: • It cannot be determined in advance how many times a
segment of code will be repeated• The value (true false) of the condition determining whether a
segment of code will be repeated or not changes as a result of what happens inside the loop
Loop Talk/Terminology: Types of Loops
• Counter-controlled loops– Also called “Counting loops”– Repetition is controlled by a variable whose value
represents a counter– E.g. the FOR loop– These loops implement fixed repetition
• Event-driven loops– Also called “Conditional loops”– Repetition is controlled by a condition (a Boolean
variable or expression) whose value changes as the loop is executed
– E.g. the WHILE loop and the REPEAT loop– These loops implement variable repetition
Loop Talk/Terminology
• Pretest vs. Posttest Loops– Pretest or Entrance Controlled Loop:
• Tests the condition before determining whether to go through the loop even once.
– The condition is a pretest condition– If the condition is true the loop is entered– If the condition is false the loop is skipped
• Examples are: FOR … DO and WHILE … DO loops
– Posttest or Exist Controlled Loop: • Tests the condition after the loop is gone through once.
– The condition is a post condition
• Example is: REPEAT … UNTIL loop– If the condition is true the loop exits (terminates).– If the condition is false the contents of the loop are repeated
Loop Talk/Terminology
• Repetition is sometimes called iteration– Fixed repetition = definite iteration– Variable repetition = indefinite iteration
• However the terms repetition and iteration have another importatant meaning: one time through a loop – E.g. On the first iteration, the value 5 is
assigned to the variable X, on the second iteration, the value 6 is assigned to the variable X, etc..
Loop Talk/Terminology• Loop parts:
– Loop body• Contains the steps to be repeated.
– Loop repetition condition• The condition that controls the loop repetition
– Loop-control variable (or expression) • The variable whose value controls loop
repetition• Must be initialized, tested, and updated for
the loop to execute properly
The FOR Loop Statement
• Most efficient way of implementing counter-controlled (fixed repetition) loops
• Syntax:
FOR <counter> := <initial value> TO <final value> DO <statement>
FOR <counter> := <initial value> DOWNTO <final value> DO
<statement>
The FOR Statement
• Syntax Diagram
• Flowchart– Self-exercise/see book
FOR
DO
:=
DOWNTO
TO
variable
statement
expression expression
The FOR Statement• The FOR statement is considered a single
statement.
• <statement> comprises the loop body. – It is executed once for each value of the
counter between <initial value> and <final value>, inclusive
– It is not executed if <final value> is smaller (for TO) than or greater than (for DOWNTO) <initial>
– It is indented for clarity– It is a single statement simple or compound
The FOR Statement
• The value of <counter> – Starts out by being the value of <initial value>– Is incremented by 1 (if TO is used) or decremented by
one (if DOWNTO is used) after each loop repetition– Cannot be modified in the FOR statement– After loop exit, the value of the <counter> is
considered undefined: You shouldn’t attempt to use the value of <counter> without reassigning to <counter> first.
• [IGNORE: The counter variable should be declared as a local variable]
The FOR Statement
• <initial value> and <final value> may be constants, variables, or expressions of the same ordinal type as the <counter>
• The value of <initial value> is computed once, just before loop entry
• The value of <final value> is computed once, just before loop entry– If <final value> is an expression, any change in the
value of that expression will have no effect on the number of iterations performed
Example: Squares, & Square Roots
PROGRAM Squares;{
Prints a list of integers, their squares and square roots
}CONST
MaxI = 4; {largest integer in table}VAR
I, {counter variable}Square : integer; {output - square of I}Root : real; {output - square root of I}
{Continued}
Example: Squares, & Square Roots
BEGIN {Squares}
{ Prints a list of integers, their squares & square roots}
writeln ('I' :10, 'I * I' :10, 'Square root' :15);
FOR I := 1 TO MaxI DO
BEGIN
Square := sqr(I);
Root := sqrt(I);
writeln (I :10, Square : 10, Root :15:1);
END {FOR}
END. {Squares}
Example: Constant Width RectanglePROGRAM ConstantSizeRectangles; {RECTCNST.PAS} CONST Line = '********************'; VAR Size: integer; {input- height of rectangle} I : integer; {internal- loop counter}BEGIN writeln('Type a positive integer: '); readln(Size); writeln; FOR I := 1 TO Size DO writeln(Line); writeln; FOR I := Size DOWNTO 1 DO writeln(Line); writeln; readln;END.
Self-Check 5.1
• Trace the following program fragment:J := 10;FOR I := 1 to 5 DO BEGIN writeln(I, J); J := J - 2 END; { FOR }
• How many times will the loop body be executed?
Self-Check 5.2
• Write FOR loop headers that process all values of Celsius (type integer) in the following ranges:
1. -10 through +102. 100 through 13. 15 through 504. 50 through -75
• What types can be used as FOR loop counters?
• Write a FOR statement that computes the sum of the ODD integers in the range 0 to 100 inclusive
The WHILE Statement
• Syntax:WHILE <expression> DO
<statement>
• Syntax graph
WHILE DOcondition statement
The WHILE Statement
• Flowchart Start
End
condition ?true
false
statement
The WHILE Statement
• The WHILE statement is considered a single statement.
• <statement> comprises the loop body– Is executed zero or more times, depending on
the value of the condition (and this, in turn, on the loop variable)
– It is indented for clarity– Is a single statement (simple or a compound)
The WHILE Statement• <expression> is a condition to control the loop
process– It depends on a loop control variable (sometimes
more than one variable)– Caution: If the value of the loop control variable is not
modified inside the loop, the loop will execute forever
• If <expression> evaluates to– true, the statement is executed.– false, the first time it is tested, statement will not be
executed– false, after one or more iterations, the WHILE loop is
exited and the next program statement is executed
Self-Check 5.3• For the following loop:
X:= 3;Count := 0;while Count < 3 do begin X := X * X; writeln(X); Count := Count + 1 end; { while }writeln(Count);
• How many times is the loop body repeated?• What is printed during each repetition of the loop body,
and at the very end?• What happens if the last statement in the loop body is:
Count := Count + 2;
• What happens if the last statement in the loop body is removed?
Self-Check 5.4
• Write a while loop that displays each integer from 1 to 5 on a separate line, along with its square.
• Write a while loop that displays each integer from 4 down to -6 on a separate line. Display the values in the sequence 4, 2, 0, and so on.
Uses of WHILE Statement• Accumulating a Sum or a Product:
– Often we use loops to accumulate the sum or product by repeating an addition or multiplication operation.
– Example:
VAR CountEmp : integer; {counter variable} NumEmp : integer; {num of employees}
TotalPay : real; {output- cumulative pay}
Pay : real; {pay for each employee} ….WHILE CountEmp =< NumberEmp DO BEGIN
TotalPay := TotalPay + Pay; CountEmp := CountEmp + 1
END;
Or <, depends on how CountEmp is initialized
Uses of While Statement
• Maybe the number of elements (times through the loop) is known, as in previous
• Maybe it is not:– Pseudo-code example:
WHILE There are more employees DO BEGIN Get employee pay; TotalPay := TotalPay + PayEND;
Example Program: Compute Company Payroll
PROGRAM CompanyPayroll;{Compute the payroll for a company} VAR
NumberEmp, CountEmp: integer;Hours, Rate, Pay, TotalPay : real;
BEGIN{Enter number of employees.}write ('Enter number of employees > ');readln (NumberEmp); {# loop repetitions determined by the user}
{continued}
…. {Compute each employee's pay &
add it to the payroll.}TotalPay := 0.0;CountEmp := 0;WHILE CountEmp < NumberEmp DO
BEGINwrite ('Hours> ');readln (Hours);write ('Rate > $');readln (Rate);Pay := Hours * Rate;writeln ('Pay is $', Pay :4:2);writeln;TotalPay := TotalPay + Pay;CountEmp := CountEmp + 1
END; {WHILE}writeln; writeln('All employees processed');writeln ('Total payroll is $', TotalPay :4:2)
END. {CompanyPayroll}
Example Output: Compute Company Payroll
Enter number of employees > 3Hours> 25Rate > $25.00Pay is $625.00
Hours> 40Rate > $13.75Pay is $550.00
Hours> 45Rate > $8.25Pay is $371.25
All employees processedTotal payroll is $1546.25.
Example Trace: Compute Company Payroll
Number of employees = 3
Employee # Number of hours Rate $1 25 25.002 40 13.753 8.25 45.00
Iteration TotalPay Pay1 0.0 625.02 625.0 550.03 1175.0 371.25
After the end of the loop TotalPay = $1546.25
Self-Check 5.5
• What output values are displayed when X is 5?write(‘Enter an integer: ‘);readln(X);Product := 1;Count := 0;WHILE Count < 4 DO BEGIN writeln(Product); Product := Product * X; Count := Count + 1 END;
• What happens if the writeln statement is moved to the bottom of the loop body?
Self-Check 5.6
• What mathematical operation does this compute?
write(‘Enter X :’); readLn(X);write(‘Enter Y :’); readLn(Y);Product := 1;WHILE Y > 0 DO BEGIN Product := Product * X; Y := Y - 1 END;writeln(‘Result = ‘, Product);
Self-Check 5.7
• When Robin’s new baby was born, she opened a savings account with $1,000.00. On each birthday, starting with the first, the bank added an additional 4.5% of the balance, and Robin added another $ 500.00 to the account.
Write a loop that will determine how much money was in the account on her child’s 18th
birthday.
FOR vs. WHILE Statement
• The following two statements behave in the same way. Which you think is easier?
{print n blank lines} {print n blank lines}Line := 1; FOR Line := 1 TO N DOWHILE Line <= N DO writeln; BEGIN writeln; Line := Line + 1 END
Event-driven Counter-Controlled Loop Loop
Counter-Controlled Loops• Template 1:
Set counter variable to 0WHILE counter variable < final value DO BEGIN
...increase counter variable by 1
END
• Template 2:Set counter variable to 1WHILE counter variable =< final value DO BEGIN
...increase counter variable by 1
END
Event-Driven Loops ExampleHungry Worm
• Problem Definition– A hungry worm approaching an apple. Each
time it moves, the worm cuts the distance between itself and the apple by its own body length until the worm is close enough to enter the apple.
Example: Hungry Worm
• Questions:– What initialization must be performed?
• Distance must be equal to InitialDistance
– How to process within loop body?• Distance during passi must be less than that
during passi-1 by the length of the worm.
– When to exit?• Distance must lie between zero & worm's body
length
Example Program: Hungry Worm
PROGRAM WormApple; {WORMAPPL.PAS}CONST WormLength = 3.5;VAR InitialDist, {input} Distance : Real; {output}
{continued}
Example: Hungry Worm…
BEGIN
write ('Enter initial distance between worm and apple in inches > ');
readln (InitialDist);
Distance := InitialDist;
WHILE Distance >= WormLength do
BEGIN
writeln('The distance is ', Distance :4:2);
Distance := Distance - WormLength
END; {WHILE}
writeln;
writeln('The last distance before entering the apple is ',
Distance:3:1)
end. {WormLength}
Example: Hungry Worm
• Observations :– If the initial distance = 12.0 the loop will be
repeated 3 times– Distance is
• Initialized before the loop header is reached• Tested before each iteration• Updated during each iteration
Example: Paying Monthly Bills
• Algorithm (Pseudocode):1. Initialize Balance to InitBal
2. WHILE Balance >= 0.0 DO
BEGIN
3. Read data for current bill
4. Display check-writing
information, if bill can be paid
5. Balance := Balance – Bill
END
Example: Paying Monthly BillsPROGRAM PayBills;{ Authorizes payment of each bill as there are sufficient funds in
the checking account. Assume bills are entered in order starting with the smallest and the total amount owed exceeds the initial account balance
}VAR
creditor: string; {input-name of creditor}bill, {input-amount of bill}InitBal, {input-starting balance}Balance : real; {current balance}
BEGINwrite(‘Enter initial account balance: $ ’);readln(InitBal);
{ Pay each bill as long as the account is not overdrawn.Decrease the balance by the bill amount after each bill is processed.
}
Example: Paying Monthly BillsPROGRAM PayBills;. . .
Balance := InitBal;WHILE Balance > 0.0 DO
BEGINwriteln;write(‘Enter next creditor : ‘);readln(Creditor);writeln(‘Enter amount owed: ‘);readln(Bill);IF Balance >= Bill THEN BEGIN writeln(‘Issue check for $’,Bill:3:2,‘ to ‘,
creditor); Balance := Balance – Bill; END ELSE writeln(‘No check issued – ‘,
‘Account balance is only $’, Balance:3:2);END; {WHILE}
writeln(‘Insufficient funds to pay any more bills!’);END. {PayBills}
Example: Paying Monthly Bills
• Observations:– Balance is the loop-control variable– Balance must equal to InitBal just before the loop
begins– Pay the current bill if the account has sufficient funds– Balance of next pass equals to Balance of current
pass minus the amount of current bill– Stop paying bills when Balance becomes negative
Self-Check 5.8
• When would the output of the following segment be erroneous? How could it be fixed?
Total := 0;write(‘Enter number of items to process :’);readln(Num);Count := 0;WHILE Count < Num DO BEGIN write(‘Enter a value :’); readln(Value); Last := Value END;writeln(‘The last value entered was ‘, Last)
Self-Check 5.9
• There are 9870 people in a town whose population increases by 10% each year. Write a loop that determines how many years (CountYears) it would take for the population to exceed 30,000.
The REPEAT Statement
• Syntax:REPEAT
<loop body>UNTIL <termination condition>
• Syntax graph
• Flowchart– Self-exercise/see book
;
REPEAT untilstatement expression
The REPEAT Statement
• <expression> is the loop termination test• After each execution of the loop body,
termination condition is evaluated• The loop body (between REPEAT and UNTIL) is
zero or more statements• If termination condition evaluates to
– true, loop exit occurs and next program statement is executed
– false, loop-body is repeated
• The test is the logical complement of the test in the WHILE loop (DeMorgan’s Theorem)
DeMorgan’s Laws/Theorem
• NOT (A OR B) <==> (NOT A) AND (NOT B)• NOT (A AND B) <==> (NOT A) OR (NOT B)• Distributing the negation through an AND/OR
operator.{See FILE: DEMORGAN.PAS)
Example: Largest NumberPROGRAM Largest;{Finds the largest number in a sequence of integer values} CONST MinVal= -MaxInt; VAR Item, {data value} LargestSoFar: integer; {largest value so far}BEGIN LargestSoFar := MinVal; REPEAT write('Enter an integer or ', MinVal, ' to stop: '); readln(Item); IF Item > LargestSoFar THEN LargestSoFar := Item UNTIL Item = MinVal; writeln('The largest value entered was ', LargestSoFar); readln;END. {Largest}
Example: Smallest NumberPROGRAM Smallest;{Finds the largest number in a sequence of integer values} CONST MaxVal = MaxInt; VAR Item, {data value} SmallestSoFar: integer; {largest value so far}BEGIN SmallestSoFar := MaxVal; REPEAT write('Enter an integer or ', MaxVal, ' to stop: '); readln(Item); IF Item < SmallestSoFar THEN SmallestSoFar := Item UNTIL Item = MaxVal; writeln('The smallest value entered was ', SmallestSoFar); readln;END. {Smallest}
Menu-Driven Programs
• Menu-driven program: – A program containing a loop that displays a menu of
operations. The user selects the next operation from the menu.
• Template for menu-driven loops:REPEAT
Display the menuRead the user’s choicePerform the user’s choice
UNTIL user’s choice is exit program
Menu-Driven Programs
• A REPEAT statement is often used to control a menu-driven program, which prints a list of choices from which the user selects an operation.
• Example:1. Compute an average.2. Compute a standard deviation.3. Find the median.4. Find the smallest and largest values.5. Plot the data.6. Exit the program.
• A CASE statement can be used to process the choices. – Use the ELSE / OTHERWISE clause to catch a bad
choice.
Menu-Driven Programs
• program segment:
REPEAT
DisplayMenu; {Display the menu choices}
writeln('Enter a number between 1 and ', ExitChoice :1);
readln(Choice);
{Perform the user's choice}
…
UNTIL Choice = ExitChoice
Self-Check 5.10
• Use DeMorgan’s theorem to complement the following conditions– (X <= Y) and (X <> 15)– (X <= Y) or (Z = 7.5)– (X <> 15) or (Z = 7.5)– Flag or not (X <> 15.7)– not Flag and (X <= 8)
• When would you use a REPEAT-UNTIL loop rather than a WHILE loop?
Self-Check 5.11
• What would the following REPEAT statement display?
REPEATwriteln(‘False conditional example.’)
UNTIL false;
• What is the difference between REPEAT...UNTIL false and WHILE false DO … ?
• Write a program fragment that continues to read data values as long as they are not decreasing. Write two versions using REPEAT and WHILE.
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